Please use this identifier to cite or link to this item: http://ir-ithesis.swu.ac.th/dspace/handle/123456789/2326
Title: BOUNDARY CONTROL OF FLEXIBLE BEAMS
การควบคุมที่ขอบของคานยืดหยุ่น 
Authors: NIPON BOONKUMKRONG
นิพนธ์ บุญคุ้มครอง
Pichai Asadamongkon
พิชัย อัษฎมงคล
Srinakharinwirot University
Pichai Asadamongkon
พิชัย อัษฎมงคล
pichaias@swu.ac.th
pichaias@swu.ac.th
Keywords: Passivity-based boundary control
Shear beam
Storage function
Backstepping observer
Vibration suppression
Partial differential equation
Finite difference equation
Issue Date:  19
Publisher: Srinakharinwirot University
Abstract: The vibration control of flexible beams is an important problem in engineering applications. Many studies have proposed that the vibration control of these beams; however, the implementation methods in practical applications are few. This dissertation investigates passivity-based boundary control for vibration suppression of flexible beams. This method incorporated an energy principle in the design, rather than a signal processing perspective. An undamped shear beam was used as a beam model, and the controller was implemented through a moving base. The storage function was defined and used to determine the control law in the design process. The finite-gain L2 - stability of the controlled system was then proven. This technique treated the beam model PDE directly without model reduction, so control spillover was avoidable. Since the measurement and actuation in the application were non-collocated, a backstepping observer was needed for the state estimation. The controller was applied at the end of the beam via a moving base, so the beam domain was intact. This technique is readily implementable in applications. The PDE model was solved numerically using the finite-difference method. The computer simulation was used to demonstrate the performance of the controllers under the proposed control scheme. The beam vibration was suppressed satisfactorily with L2 - stability.
-
URI: http://ir-ithesis.swu.ac.th/dspace/handle/123456789/2326
Appears in Collections:Faculty of Engineering

Files in This Item:
File Description SizeFormat 
gs601120053.pdf2.81 MBAdobe PDFView/Open


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.